Group B-2CONDUCTIONExperiment 1Investigation of fourier law using same material (brass).Experiment 2aDraw the temperature profile of a composite material (having a sample without thermistor) and find overall heat transfer for steady state conditionExperiment 2bDraw the temperature profile of a composite material (having a sample with thermistor) and find overall heat transfer for steady state conditionExperiment 3Determine the effect of change in cross-section area on the temperature profile using same material.Experiment 4Draw temperature profile and find the thermal conductivity of the given disc (radial heat flow)Experiment 5Investigate the effect of thermal contacts on the temperature profileExperiment 6Investigate the effect of thermal insulators on the temperature profile.

CONVECTIONExperiment 1Demonstrate the relationship between power input and surface temperature in free convectionExperiment 2Demonstrate the relationship between power input and surface temperature in forced convectionExperiment 3Determine the use of extended surface for convective heat transferExperiment 4Determine the temperature distribution along different extended surfacesExperiment 5Determine the effect of change in orientation of a heat exchanger on the temperature profile for free convection

HEAT EXCHANGERExperiment 1Demonstrate the working principle of a double pipe concentric tube heat exchanger operating under parallel flow conditionExperiment 2Demonstrate the working principle of a double pipe concentric tube heat exchanger operating under Counter flow condition.Experiment 3Determine the effect of volume flowrate variation ofa). Hot waterb). Cold wateron the performance of a given heat exchanger. (For both parallel and counter flow arrangements)Experiment 4Determine the effect of Temperature variation of Hot Fluid (Set) Temperature on the performance of a given heat exchanger. (For both parallel and counter flow arrangements)